Toshio Sakamizu scite author profile

Toshio Sakamizu

5Publications

130Citation Statements Received

42Citation Statements Given

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149

129

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Hitachi (Japan)

Publications

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Observation of optical gain in ultra-thin silicon resonant cavity light-emitting diode

Saito

Sakuma

Suwa

et al. 2008

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We have observed net optical gain by current injections to ultra-thin Si embedded in a resonant optical cavity. The cavity consists of a dielectric waveguide fabricated by CMOS and MEMS process. The photoluminescence (PL) spectra show narrow resonances peaked at the designed wavelength, and the electroluminescence (EL) intensity increases super-linearly with currents. The comparisons with first principle calculations suggest that the optical gain is originated from intrinsic material properties of ultra-thin Si due to quantum confinements.

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Stimulated emission of near-infrared radiation by current injection into silicon (100) quantum well

Saito

Suwa

Arimoto

et al. 2009

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We describe the observation of stimulated emissions by current injections into a silicon quantum well. The device consists of a free standing membrane with a distributed feedback resonant cavity fabricated by state-of-the-art silicon processes. The emission spectra have multimode structures peaked in the near-infrared region above the submilliampere threshold currents at room temperatures. Consequently, electronics and photonics should be able to be converged on chips by using silicon quantum well laser diodes.

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Depth Profile and Line-Edge Roughness of Low-Molecular-Weight Amorphous Electron Beam Resists

Hirayama

Shiono

Matsumaru

et al. 2005

Jpn. J. Appl. Phys.

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Nanometer-scale imaging characteristics of novolak resin-based chemical amplification negative resist systems and molecular weight distribution effects of the resin matrix

Shiraishi

Yoshimura

Sakamizu

et al. 1994

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Molecular weight distribution effects of novolak resin-based chemical amplification negative resist systems are investigated for electron-beam lithography. The resist systems investigated consist of onium salts as an acid generator, a methoxymethyl melamine crosslinker, and a conventional/fractionated novolak resin matrix. Delineated patterns of both types of resist systems are compared to evaluate submicron-scale resolution. The conventional novolak resin-based system shows higher contrast than the fractionated one. High aspect ratio patterns are resolved for the conventional novolak-based resist, whereas poor results are obtained for the fractionated resin-based one on the submicron scale. Very thin films (30 nm) of both resist systems are delineated with a finely focused electron beam (diameter: approximately 2 nm at 5 kV) from a scanning electron microscope. Nanometer-scale edge roughness (nanoedge roughness) is observed for the conventional novolak resin-based resist. On the contrary, the degree of nanoedge roughness is greatly reduced for the fractionated one.

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Development of positive electron-beam resist for 50 kV electron-beam direct-writing lithography

Sakamizu

Yamaguchi

Shiraishi

et al. 1993

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A positive chemical amplification resist system has been developed for 50 kV electron-beam direct-writing lithography. This resist consists of a meta-cresol/para-cresol novolak resin, tetrahydropyranyl-protected polyvinylphenol (THP-M) as a polymeric dissolution inhibitor, and tri(methanesulfonyloxy)benzene (MeSB) as an acid generator. Radiation-induced hydrolysis of MeSB in the novolak resin matrix was confirmed to yield methanesulfonic acid and phenol derivatives by using gel-permeation and high-performance liquid chromatography. The catalytic chain length of THP-M deprotection was estimated to be approximately 300 in the matrix. It was found that the compatibility of a polymeric dissolution inhibitor with a novolak matrix relates to their polarity characteristics, and that the increase of para-cresol ratio in the novolak matrix can enhance the compatibility with THP-M and dissolution-inhibition capability of the composition. The optimized composition and process of the resist system achieved high aspect ratio patterns (0.3-μm contact holes/1.6-μm thickness) with high sensitivity (3.5 μC/cm2 at 50 kV).

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Toshio Sakamizu

Observation of optical gain in ultra-thin silicon resonant cavity light-emitting diode

Stimulated emission of near-infrared radiation by current injection into silicon (100) quantum well

Depth Profile and Line-Edge Roughness of Low-Molecular-Weight Amorphous Electron Beam Resists

Nanometer-scale imaging characteristics of novolak resin-based chemical amplification negative resist systems and molecular weight distribution effects of the resin matrix

Development of positive electron-beam resist for 50 kV electron-beam direct-writing lithography

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